Maria Asensio Explained
María Carmen Asensio |
Birth Date: | 9 February 1955 |
Nationality: | Spanish-Argentinian |
Occupation: | Physical chemist, academic, researcher, and author |
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Awards: | Hans Schumacher Award, Argentine Association for Physicochemical Research (AAIFQ) Fellowship, Centre International des Etudiants et Stagiaires (C.I.E.S.) Distinguished visiting lecturer 2021, Nebraska-Lincoln -University |
Alma Mater: | Nacional University of La Plata Institute of Theoretical and Applied Physicochemical Research (INIFTA) National Scientific and Technical Research Council (CONICET) |
Workplaces: | Materials Science Institute of Madrid (ICMM), Spanish Scientific Research Council(CSIC) |
Maria C. Asensio is a Spanish-Argentinian physical chemist, academic, researcher, and author. She is a Full Research Professor at the Materials Science Institute of Madrid (ICMM) of the Spanish National Research Council (CSIC) and Chair of the CSIC Research Associated Unit-MATINÉE created between the ICMM and the Institute of Materials Science (ICMUV) of the Valencia University.[1] Asensio's work is focused on the characterization of advanced materials, developing spectroscopic instrumentation, and the use of artificial intelligence tools for discovering sustainable energy materials. She is best known for her contribution in chemical and electronic imaging of nano- and mesoscopic materials, using nano Angle-Resolved Photoemission Spectroscopy (Nano-ARPES) and X-ray Absorption Spectroscopy (XAS), among other conventional experimental characterization techniques. She has also worked on the experimental determination of the structure of complex materials using effective energy and angular scanning photoelectron Diffraction spectroscopic techniques.[2] [3] [4]
Asensio has published over 250 research articles.[5]
Education
In 1980, Asensio graduated with a degree in physical chemistry from the La Plata National University. From 1981 to 1986, she carried out her doctoral thesis work at the Institute of Theoretical and Applied Physicochemical Research (INIFTA), receiving Ph.D. degree from the National University of La Plata. She earned her postdoctoral degree from the Autonomous University of Madrid in 1987 and Warwick University in 1989.[6]
Career
After moving to Europe, Asensio was an assistant professor at the Autonomous University of Madrid (UAM) from 1988 to 1989 and worked as a Postgraduate lecturer at the European Hercules from 1992 to 1999 at LURE Synchrotron, Orsay, France.[7] She also was a lecturer of the Postgraduate of the Condensed Matter Programme of the Sciences Faculty of the UAM and the Complutense University of Madrid, during 1992 and 1999. Asensio has been working as a senior scientist at ICMM-CSIC since 1992, with a prolonged leave of eleven years.[8] From 2007 to 2018, she was working as a permanent scientific staff of the Synchrotron SOLEIL, in Gif-sur-Yvette, France.[2]
Asensio was elected as the International Union for Vacuum Science, Technique, and Applications (IUVSTA) Scientific Director from 2004 to 2007. She has chaired the Surface Science Division of the IUVSTA from 2019 to the present. She currently works as a Full Professor Research Staff Member at the Materials Science Institute of Madrid.[1]
Research
Asensio's research is focused on studying the chemical, structural, and electronic structure of surfaces, interfaces, and quantum materials utilizing synchrotron radiation techniques. For several decades, she has worked on the applications and development of scientific instrumentation in Large European Synchrotron Radiation Installations.[5] [9] [10]
Development of synchrotron radiation scientific instrumentation
Asensio has worked on the use, applications, and development of scientific instrumentation in Large European Synchrotron Radiation Installations. After the LURE's closure and the Synchrotron SOLEIL's construction as the new national source of SR, Asensio designed and built an SR station to perform the Nano-ARPES technique. In 2011, the first short scientific article appeared, showing a few incipient advances in the design of the "Nanometre multi-axis manipulator with interferometer control"[11] that later led to the success of the nanoARPES instrument at the ANTARES beamline of the SOLEIL Synchrotron.[12] The results obtained with the instrumentation developed at the ANTARES beamline demonstrated the Project's feasibility, resulting in the proof of concept of the nanoARPES Project. This novel technique is a k-nanoscope technique that allows a direct and precise determination of the electronic structure recording the "with binding energy (BE) vs. k wave vector" plots and Fermi surface imaging of heterogeneous complex materials with a lateral resolution better than 100nm.
Asensio developed a new method entitled the ANTARES beamline of the SOLEIL synchrotron. This method is a multi-axis manipulator with interferometer control and provides an X-ray nanoprobe. She also introduced several ways to characterize the chemical and electronic heterogeneities from the millimetre to the nanometre scale, as well as to address several mesoscopic scientific problems.[13] [14] She used complementary synchrotron and theoretical approaches to address the electrical characteristics of the coordination complex nickel (II) bis-n-propyl xanthate, and to understand the reactivity of coordination chemistry.[15] Later, she conducted ARPES studies on a heterostructure made of bilayer graphene (BLG) and hexagonal boron nitride (hBN), which is back gated with an underlying graphite flake, with submicron spatial resolution among other contributions.[16] [17]
Nanoscience and Nano-ARPES
Asensio's research includes the electronic and chemical characterization of novel low-dimensional quantum materials like Graphene, hBN, transition metal dichalcogenide (TMD), transition metal trichalcogenide (TMT), Xenes, and in particular, silicene and the Nano-ARPES approach, and their atomically controlled homo- and hetero-structures, using conventional and synchrotron radiation-based techniques. Out of all the articles she had, her research on silicene has received the most citations, totalling 3613.[18] She has been focusing on the operation of the Nano-ARPES user facility constructed at the SOLEIL synchrotron over the past ten years.[19] She worked on manybody effects detected by photoemission on low-dimensional materials compilling model photoemission simulation and experimental Nano-ARPES results to unravel collective excitations involving polarons, plasmons, phonons and other low-energy interactions. She analyzed the relationship between the element's wave-function nature and the excited-state, self-energy effects.[20]
Electronic Structures of low-dimensional materials beyond graphene
Asensio has been involved in improving the characteristics of materials and identifying corrosion mechanisms. She discovered the efficiency of scientific instrumentation in permitting realistic solutions for unusually complicated materials. She highlighted the utility of artificially twisted graphene bilayers that are adaptable, affordable building blocks.[21] She conducted an in-depth study about commercially available copper foil that has developed into an effective and affordable catalytic substrate for the scalable synthesis of large-area graphene sheets. She also confirmed the high quality of the individual square graphene sheets and their merged regions by using angle-resolved photoemission spectroscopy with a submicron spatial resolution (Micro-ARPES) to study the three-dimensional electronic structures of square graphene sheets grown on copper foils.[22] In her studies, she analysed the quasi-one-dimensional monophosphate structure of tungsten. She observed three states at the tungsten Fermi level, two of which are two-dimensional and one of which has one-dimensional characteristics.[23] She also untangled the interlayer hybridization of Dirac relativistic carriers in Graphene/MoS2 heterostructures.[24] She clarified the effect of the electron-plasmon coupling on the silicon satellite band structure.[25] She discovered electronic properties of topological insulator nanowires responsible for their quantum transport using high energy and lateral resolution Nano-ARPES, among other contributions to Condensed Matter Physics.[26]
Awards and honors
- 1986-1987 - Postdoctoral fellowship, CONICET to perform the research work at the UAM
- 1987- Hans Schumacher Award, Argentine Association for Physicochemical Research (AAIFQ) to the best thesis "Interaction of water with thin Cu films"[27] [28]
- 1991-1992 - Fellowship, Centre International des Etudiants et Stagiaires (C.I.E.S.) to realize research work at the Synchrotron LURE, Orsay, Ile de France, France.
- 1992-1993 - Two fellowships were granted by the French "Scientific Research National Center" (CNRS) to support stays at the Synchrotron LURE, Orsay, Ile de France, France.
- 2004-2007 - Scientific Director of the IUVSTA.
- 2016–Present - Chair of the Surface Science Section, IUVSTA
- 2021 - Distinguished visiting lecturer 2021, Nebraska-Lincoln -University[29]
Bibliography
- J. Avila, A. Mascaraque, E.G. Michel, M.C. Asensio, Phase transition of submonolayer Pb/Ge(111): α−√3×√3R30° ↔ 3 × 3 at ~250 K, Applied Surface Science. 123–124 (1998) 626–630. Phase transition of submonolayer Pb/Ge(111): α−3×3R30° ↔ 3 × 3 at ~250 K.
- M.C. Asensio, J. Avila, L. Roca, A. Tejeda, G.D. Gu, M. Lindroos, R.S. Markiewicz, A. Bansil, Emergence of multiple Fermi surface maps in angle-resolved photoemission from Bi2Sr2CaCu2O8+δ Physical Review B. 67 (2003) 014519–7. DOI Name 10.1103 Values /PhysRevB.67.014519.
- P. Vogt, P. De Padova, C. Quaresima, J. Avila, E. Frantzeskakis, M.C. Asensio, A. Resta, B. Ealet, G. Le Lay, Silicene: Compelling Experimental Evidence for Graphenelike Two- Dimensional Silicon, Physical Review Letters. 108 (2012) 155501–5. DOI Name 10.1103 Values /PhysRevLett.108.155501.
- J. Avila, M.C. Asensio, First NanoARPES User Facility Available at SOLEIL: An Innovative and Powerful Tool for Studying Advanced Materials, Synchrotron Radiation News. 27 (2014) 24–30. First NanoARPES User Facility Available at SOLEIL: An Innovative and Powerful Tool for Studying Advanced Materials.
- L. Brown, E.B. Lochocki, J. Avila, C.-J. Kim, Y. Ogawa, R.W. Havener, D.-K. Kim, E.J. Monkman, D.E. Shai, H.I. Wei, M.P. Levendorf, M. Asensio, K.M. Shen, J. Park, Polycrystalline Graphene with Single Crystalline Electronic Structure, Nano Letters. 14 (2014) 5706–5711. Polycrystalline Graphene with Single Crystalline Electronic Structure.
- G. Deokar, J. Avila, I. Razado-Colambo, J.-L. Codron, C. Boyaval, E. Galopin, M.-C. Asensio, D. Vignaud, Towards high quality CVD graphene growth and transfer, Carbon. 89 (2015) 82–92. Towards high quality CVD graphene growth and transfer.
- Y. Ma, H.C. Diaz, J. Avila, C. Chen, V. Kalappattil, R. Das, M.-H. Phan, T. Čadež, J.M.P. Carmelo, M.C. Asensio, M. Batzill, Angle resolved photoemission spectroscopy reveals spin charge separation in metallic MoSe2 grain boundary, Nature Communications. 8 (2017) 14231–12. Angle resolved photoemission spectroscopy reveals spin charge separation in metallic MoSe2 grain boundary.
- V.L. Nguyen, D.L. Duong, S.H. Lee, J. Avila, G. Han, Y.-M. Kim, M.C. Asensio, S.-Y. Jeong, Y.H. Lee, Layer-controlled single-crystalline graphene film with stacking order via Cu–Si alloy formation, Nat. Nanotechnol. (2020). Layer-controlled single-crystalline graphene film with stacking order via Cu–Si alloy formation.
- M. Hallot, B. Caja-Munoz, C. Leviel, O.I. Lebedev, R. Retoux, J. Avila, P. Roussel, M.C. Asensio, C. Lethien, Atomic Layer Deposition of a Nanometer-Thick Li3PO4 Protective Layer on LiNi0.5 Mn1.5O4 Films: Dream or Reality for Long-Term Cycling?, ACS Appl. Mater. Interfaces. (2021) acsami.0c21961. Atomic Layer Deposition of a Nanometer-Thick Li 3 PO 4 Protective Layer on LiNi 0.5 Mn 1.5 O 4 Films: Dream or Reality for Long-Term Cycling?.
- M.E. Dávila, J. Ávila, I.R. Colambo, D.B. Putungan, D.P. Woodruff, M.C. Asensio, New insight on the role of localisation in the electronic structure of the Si(111)(7 × 7) surfaces, Sci Rep. 11 (2021) 15034. New insight on the role of localisation in the electronic structure of the Si(111)(7 × 7) surfaces.
Notes and References
- Web site: Prof. María Carmen Asensio.
- Web site: ORCID. orcid.org.
- Single local site structure for vibrationally distinct adsorption states: NO on Ni(111). M. C.. Asensio. D. P.. Woodruff. A. W.. Robinson. K. -M.. Schindler. P.. Gardner. D.. Ricken. A. M.. Bradshaw. J. C.. Conesa. A. R.. González-Elipe. May 1, 1992. Chemical Physics Letters. 192. 2. 259–264. ScienceDirect. 10.1016/0009-2614(92)85462-J. 1992CPL...192..259A .
- Growth of Epitaxial Co Layers on Sb-Passivated GaAs(110) Substrates. C. M.. Teodorescu. J.. Chrost. H.. Ascolani. J.. Avila. F.. Soria. M. C.. Asensio. February 1, 1998. Surface Review and Letters. 05. 1. 279–283. worldscientific.com (Atypon). 10.1142/S0218625X98000517. 1998SRL.....5..279T .
- Web site: Maria C. Asensio. scholar.google.fr.
- Web site: Maria C. Asensio-Synchrotron soleil.
- Web site: Hercules: brief history | Hercules School. hercules-school.eu.
- Web site: Personal. www.icmm.csic.es.
- Web site: This summer nanoARPES is displaying in Copenhagen!.
- Interferometer-controlled soft X-ray scanning photoemission microscope at SOLEIL. 2013 . 10.1088/1742-6596/425/13/132013 . Avila . José . Razado-Colambo . Ivy . Lorcy . Stephane . Giorgetta . Jean-Luc . Polack . François . Asensio . Maria C. . Journal of Physics: Conference Series . 425 . 13 . 132013 . 1212.6443 . 2013JPhCS.425m2013A . 118581861 .
- Nanometre multi-axis manipulator with interferometer control. J.-L.. Giorgetta. M.-C.. Asensio. J.. Avila. April 24, 2011. Diamond Light Source Proceedings. 1. MEDSI-6. e59. Cambridge University Press. 10.1017/S2044820111000128.
- ANTARES, a scanning photoemission microscopy beamline at SOLEIL. 2013 . 10.1088/1742-6596/425/19/192023 . Avila . Jose . Razado-Colambo . Ivy . Lorcy . Stehane . Lagarde . Bruno . Giorgetta . Jean-Luc . Polack . François . Asensio . Maria C. . Journal of Physics: Conference Series . 425 . 19 . 192023 . 1212.6440 . 2013JPhCS.425s2023A . 119257472 .
- Nanometre multi-axis manipulator with interferometer control. Jean-Luc. Giorgetta. M.. Asensio. J.. Avila. Diamond Light Source Proceedings . August 24, 2011. 1 . MEDSI-6 . 10.1017/S2044820111000128. 124575655 .
- Quantum Transport and Nano Angle-resolved Photoemission Spectroscopy on the Topological Surface States of Single Sb2Te3 Nanowires. Yulieth C.. Arango. Liubing. Huang. Chaoyu. Chen. Jose. Avila. Maria C.. Asensio. Detlev. Grützmacher. Hans. Lüth. Jia Grace. Lu. Thomas. Schäpers. September 1, 2016. Scientific Reports. 6. 1. 29493. 10.1038/srep29493. 27581169 . 5007488 . 2016NatSR...629493A .
- Web site: Electronic structure determination.
- Direct visualization of electrostatic gating on the band structure of two-dimensional materials via Angled Resolved Photo Emission Spectroscopy (ARPES). Frederic. Joucken. Jose. Avila. Zhehao. Ge. Eberth. Quezada. Hemian. Yi. John. Davenport. Kenji. Watanabe. Takashi. Taniguchi. Maria. Asensio. Jairo Jr.. Velasco. Aps March Meeting Abstracts . January 1, 2019. 2019. K14.012. 2019APS..MARK14012J . NASA ADS.
- Spatially-resolved electronic structure of stripe domains in IrTe2 through electronic structure microscopy. Changhua. Bao. Hongyun. Zhang. Qian. Li. Shaohua. Zhou. Haoxiong. Zhang. Ke. Deng. Kenan. Zhang. Laipeng. Luo. Wei. Yao. Chaoyu. Chen. José. Avila. Maria C.. Asensio. Yang. Wu. Shuyun. Zhou. October 19, 2021. Communications Physics. 4. 1. 229 . www.nature.com. 10.1038/s42005-021-00733-x. 2110.15194 . 2021CmPhy...4..229B . 239030605 .
- Silicene: Compelling Experimental Evidence for Graphenelike Two-Dimensional Silicon. Patrick. Vogt. Paola. De Padova. Claudio. Quaresima. Jose. Avila. Emmanouil. Frantzeskakis. Maria Carmen. Asensio. Andrea. Resta. Bénédicte. Ealet. Guy. Le Lay. April 12, 2012. Physical Review Letters. 108. 15. 155501. 10.1103/PhysRevLett.108.155501. 22587265 . 2012PhRvL.108o5501V .
- First NanoARPES User Facility Available at SOLEIL: An Innovative and Powerful Tool for Studying Advanced Materials. José. Avila. María C.. Asensio. March 4, 2014. Synchrotron Radiation News. 27. 2. 24–30. 10.1080/08940886.2014.889549. 2014SRNew..27...24A . 123256799 . free.
- Web site: Self-energy effects, Asensiol.
- Polycrystalline Graphene with Single Crystalline Electronic Structure. Lola. Brown. Edward B.. Lochocki. José. Avila. Cheol-Joo. Kim. Yui. Ogawa. Robin W.. Havener. Dong-Ki. Kim. Eric J.. Monkman. Daniel E.. Shai. Haofei I.. Wei. Mark P.. Levendorf. María. Asensio. Kyle M.. Shen. Jiwoong. Park. October 8, 2014. Nano Letters. 14. 10. 5706–5711. 10.1021/nl502445j. 25207847 . 2014NanoL..14.5706B .
- Single crystalline electronic structure and growth mechanism of aligned square graphene sheets. H. F.. Yang. C.. Chen. H.. Wang. Z. K.. Liu. T.. Zhang. H.. Peng. N. B. M.. Schröter. S. A.. Ekahana. J.. Jiang. L. X.. Yang. V.. Kandyba. A.. Barinov. C. Y.. Chen. J.. Avila. M. C.. Asensio. H. L.. Peng. Z. F.. Liu. Y. L.. Chen. March 1, 2018. APL Materials. 6. 3. 036107. 10.1063/1.5012947. 2018APLM....6c6107Y . free. 11368/2924990. free.
- Web site: Monographic study by Asensio.
- Direct Observation of Interlayer Hybridization and Dirac Relativistic Carriers in Graphene/MoS 2 van der Waals Heterostructures. Horacio. Coy Diaz. José. Avila. Chaoyu. Chen. Rafik. Addou. Maria C.. Asensio. Matthias. Batzill. February 11, 2015. Nano Letters. 15. 2. 1135–1140. 10.1021/nl504167y. 25629211 . 2015NanoL..15.1135C .
- Satellite band structure in silicon caused by electron-plasmon coupling. Johannes. Lischner. G. K.. Pálsson. Derek. Vigil-Fowler. S.. Nemsak. J.. Avila. M. C.. Asensio. C. S.. Fadley. Steven G.. Louie. May 14, 2015. Physical Review B. 91. 20. 205113. APS. 10.1103/PhysRevB.91.205113. 1504.07794 . 2015PhRvB..91t5113L . 117753006 .
- Nano-Angle Resolved Photoemission Spectroscopy on Topological insulator Sb2Te3 nanowires responsible of quantum transport. 2017 . 10.1088/1742-6596/864/1/012041 . Avila . José . Chen . Chaoyu . Arango . Yulieth C. . Huang . Liubing . Grützmacher . Detlev . Lüth . Hans . Lu . J. Grace . Schäpers . Thomas . Asensio . Maria C. . Journal of Physics: Conference Series . 864 . 1 . 012041 . 2017JPhCS.864a2041A . 139311071 . free .
- Interaction between Water and Thin Copper Films Model of Immobile Gas Adsorption. J. M.. Heras. E. V.. Albano. M. C.. Asensio. January 1, 1984. Zeitschrift für Physikalische Chemie. 140. 1. 117–128. www.degruyter.com. 10.1524/zpch.1984.140.1.117. 196856125 .
- Web site: Premios – Asociación Argentina de Investigaciones Fisicoquímicas.
- Web site: UNL | College of Arts and Sciences | Events. events.unl.edu.